Boards’ clusters are always fun to see, and PINE64 has shared pictures of two RockPro64 clusters with respectively 48 and 24 boards neatly packed into partially custom enclosures. The 48-node cluster will feature a total of 288 cores, including 96 Arm Cortex-A72 cores and 188 Cortex-A53 cores, as well as 192GB of LPDDR4 RAM. Low cost development boards may be seen as toys by some, so it’s interesting to learn that PINE64 plans to move their complete website infrastructure including the main website, a community website, forums, wiki, and possibly IRC on the 24-node cluster, while it seems the 48-node cluster may be used for their build environment. The company has just completed the assembly of the clusters, and did not disclose the full technical details just yet. However, a progress report may be written in due time. Once the migration is done, and everything works as it should, it will be a good showcase of the stability of RockPro64 …

Nick Smith has been messing around with clusters made of Arm boards for several years starting with Raspberry Pi boards, including a 5-node RPI 3 cluster, before moving to other boards like Orange Pi 2E, Pine A64+, or NanoPC-T3. His latest design is based on twelve NanoPi Fire3 boards with 8 cores each, bringing the total number of cores to 96. The platform may not be really useful for actual HPC applications due to limited power and memory, but can still be relied upon for education and development, especially it’s easily portable. Nick also made some interesting points and discoveries. It’s pretty with shiny blinking LEDs, and what looks like proper cooling, and the cluster can deliver 60,000 MFLOPS with Linpack which places it in the top 250 faster computers in the world! That’s provided we travel back in time to year 2000 through 🙂 By today’s standard, it would be rather slow, but that’s an interesting historical fact. Nick …

ArmWizard forum member “-W.-” needed a cluster to test his firmware build and deployment solution for Orange Pi Zero boards which can deploy the firmware to multiple boards from one single board. So he procured 24 Orange Pi Zero boards, a 24-port switch, some USB hubs and debug board, as well as some other accessories, power supplies, and two wooden planks. That’s the results after assembly. So we have 4 tower of six Orange Pi Zero boards fairly neatly connected to the 24-port Ethernet switch with 30 cm Ethernet cables, and four black USB hubs for the USB to TTL debug boards. The side view below shows the boards are powered by micro USB cables connected to three different power supplies, cooling achieved via four fans, and the power extension is hidden right underneath close to the Ethernet switch. The cluster will also be used for machine learning latter on, at least to detect potential bottlenecks due to the relatively …

Hardkernel teased us with ODROID HC1 Home Cloud server, and ODROID MC1 cluster last August with both solutions based on a cost down version of ODROID-XU4 board powered by Samsung Exynos 5422 octa-core Cortex-A15/A7 processor. ODROID-HC1 Home Cloud server was launched shortly after in September for $49. It took a little longer than expected for the cluster to launch, but ODROID-MC1 (My Cluster One) is finally here with four ODROID-XU4S boards, and a metal case with a cooling fan. The solution is sold for 264,000 Wons in South Korea, and $220 to the rest of the world. ODROID-MC1 cluster specifications: Four ODROID-XU4S boards with SoC – Samsung Exynos 5422 quad core ARM Cortex-A15 @ 2.0GHz quad core ARM Cortex-A7 @ 1.4GHz with Mali-T628 MP6 GPU supporting OpenGL ES 3.0 / 2.0 / 1.1 and OpenCL 1.1 Full profile System Memory – 2GB LPDDR3 RAM PoP Network Connectivity – 10/100/1000Mbps Ethernet (via Realtek RTL8153 USB 3.0 to Ethernet bridge) USB – …

Pine64 launched SOPINE A64 system-on-module based on Allwinner A64 processor back in January, with such module normally being found in low volume products where companies do not want to spent too many resources developing complex multiple layers boards with CPU and RAM, and instead focus on developing a simpler baseboard and custom software for their product. Pine64 made something else with SOPINE A64 modules: a cluster board. I don’t have the full details yet, but “PINE64 SoPine Cluster Board” comes with 7 SO-DIMM slot designed to take SOPINE64 modules with the board providing a micro USB OTG port, a USB host port, and Ethernet transceiver for each SoM, which are connected to a Gigabit Ethernet switch (initially Marvell 88E6185, but they appear to have now switched to a Realtek part), and accessible via a single Gigabit Ethernet port. Power can be provided by a 5V/10A power supply connected to a power barrel, or via the ATX connector.I also understand the …

Hardkernel ODROID-XU4 board is a powerful – yet inexpensive – ARM board based on Exynos 5422 octa-core processor that comes with 2GB RAM, Gigabit Ethernet, and a USB 3.0 interface which makes it suitable for networked storage applications. But the company found out that many of their users had troubles because of bad USB cables, and/or poorly designed & badly supported USB to SATA bridge chipsets. So they started to work on a new board called ODROID-HC1 (HC = Home Cloud) based on ODROID-XU4 design to provide a solution that’s both easier to ease and cheaper, and also includes a metal case and space for 2.5″ drives. They basically remove all unneeded features from ODROID-XU4 such as HDMI, eMMC connector, USB 3.0 hub, power button, slide switch, etc… The specifications for ODROID-HC1 kit with ODROID-XU4S board should look like: SoC – Samsung Exynos 5422 quad core ARM Cortex-A15 @ 2.0GHz quad core ARM Cortex-A7 @ 1.4GHz with Mali-T628 MP6 GPU …